KR100343483B1 - Electric lamp - Google Patents

Abstract

The electric lamp according to the invention comprises a light source 1 having an envelope 3 of dope quartz glass. The quartz glass includes silicon oxide, cerium oxide, titanium oxide, europium oxide and aluminum oxide. Cation forming atoms based on 0.1 to 0.2% cerium, 0.01 to 0.04% titanium, 0.03 to 0.2% europium and up to 0.8% aluminum. The atomic ratio of aluminum / europium is in the range of 3 to 8. Doped quartz glass is at least transparent to visible light and impermeable to ultraviolet light.

Description

Electric lamp

The present invention relates to an electric lamp having a light source in a floodlight lamp closed in a vacuum-sealed manner, the light source being made of a transparent UV-absorbing quartz glass comprising aluminum oxide and metal oxide selected from the group to which cerium and titanium belong. It has an envelope.

High pressure discharge lamps of this kind are known from US Pat. No. 3,531,677.

The known lamp has a quartz glass lamp vessel having a dope quartz glass layer on its outer surface. In this case the doping consists of cerium oxide or titanium oxide as colored UV-absorbing oxide or colorless UV-absorbing material. The known lamps have the disadvantage that the lamps are impermeable only to a part of the UV spectrum, rely on doping and also transmit only part of the light generated by the light source.

Dutch Patent No. 77 14 305 discloses a high-pressure discharge lamp in which a quartz glass lamp vessel consists of UV-absorbing dope quartz glass, for example europium, cerium and titanium elements, each consisting of 0.02 mol% in selected positions. . The dope quartz glass herein is only present in the position of the lamp vessel where the lamp, determined by the position used during operation, is relatively low temperature without dopant. The doping absorbs the UV and the temperature inherently increases, thus having a clear benefit in the lighting efficiency of the lamp. However, dope quartz glass has a yellow color which prevents it from transmitting all the generated light. It also does not absorb all ultraviolet rays.

U.S. Patent No. 4,361,779 discloses electric lamps, halogen incandescent lamps and high-pressure discharge lamps, and their quartz glass lamp vessels must contain rare earth oxides such as alkali oxides, alkaline earth oxides and praseodymium oxide and aluminum oxide or europium oxide. Is optionally doped by containing. The lamp vessel is firmly colored yellow, which makes it suitable for use in lamps, for example halogen lamps that emit yellow light. The glass is only approaching a portion of the UV spectrum.

High-pressure discharge lamps and electric incandescent lamps with a dope quartz glass lamp vessel or envelope of such glass are known from US Pat. No. 5,196,759. The doping here consists of titanium oxide and cerium oxide and has the purpose of absorbing a part of ultraviolet rays. However, among the wavelengths that are not absorbed, there is relatively long-wave UV radiation.

An electric lamp with UV absorbing quartz glass and an envelope of quartz glass is known from EP-A 0 574 158. The quartz glass comprises at least 96% by weight of SiO ₂ and europium oxide, titanium oxide and cerium oxide.

From this patent application it can be seen that the addition of europium oxide reduces the UV-transmission of quartz glass doped with cerium oxide and titanium oxide, and also reduces the transmission in the visible region of the spectrum because the glass is colored yellow. (Figure 1).

It is an object of the present invention to provide an electric lamp as described above, which has at least a covering portion which is transparent to visible light and impermeable to ultraviolet light.

According to the present invention, the object is that the quartz glass of the enclosure comprises silicon oxide, cerium oxide, titanium oxide, europium oxide and aluminum oxide, in which case cerium is 0.1 to 0.2% based on cationogenous elements. , Titanium is 0.01 to 0.04%, europium is 0.03 to 0.2% and aluminum is 0.8% or less, wherein the atomic ratio of aluminum / europium is in the range of 3 to 8.

It has been found that quartz glass, in which the atoms appear in the oxide dioxide matrix in a given amount and ratio, is at least transparent to visible light and impermeable to ultraviolet light. The fact that the quartz glass, which will be described later in dope quartz glass, has such properties is due to the properties of all the components related to those described above. The components, cerium, titanium and europium, respectively, absorb each other's spectral regions of complementary and partially overlapping ultraviolet light. Aluminum oxide keeps europium in a bivalent form dissolved in the actual matrix. In particular, when the atomic ratio of Al / Eu is 4 or more, UV absorption by europium is increased due to light transmission. The influence of aluminum preferably additionally has the advantage of neutralizing the rheological changes of the quartz glass caused by the presence of divalent europium. It also indicates that the maximum value for the aluminum content is important because the dope quartz glass begins to show a tendency to crystallize an amount of aluminum of 0.8% or more. If there are at least four atoms, in particular four aluminum atoms available for europium atoms in dope quartz glass, it has been found to be preferred. On the other hand, it is desirable for the high SiO ₂ content of the glass if the Al / Eu atomic ratio does not exceed 7.

Also, if europium is present in the trivalent oxide shape in the batch from which the quartz glass is obtained, the divalent shape is generated during dissolution, for example, under a reducing atmosphere of helium and hydrogen. The arrangement may comprise an oxide of a cation forming atom of dope quartz glass or another mixed oxide of the atom.

Generally the quartz glass envelope of the light source has a thickness of at least 1 mm. The minimum amount of additive for glass is based on this. The smaller the amount is, the glass has insufficient impermeability to ultraviolet light. Given the maximum amount of additives, the dope quartz glass still contains about 97% by weight of silicon dioxide and, apart from its optical properties, has the properties of highly molten silicon dioxide. The dope quartz glass may comprise impurities produced by its components.

In a suitable embodiment, the dope quartz glass comprises 0.15% cerium, 0.02% titanium, 0.05% europium, or the tolerance of atomic weight for the atoms is indicated as ± 0.1%. The atomic ratio of aluminum / europium is then represented in the range of 4-7, in particular 4.

The light source can be, for example, an incandescent body made of tungsten and arranged in an inert gas comprising halogen. The light source may also be a pair of electrodes in the ionization medium between the electrodes that sustain a high pressure discharge arc during operation. The ionization medium necessarily comprises a rare gas, and mercury and halide metals may optionally be included.

The lamp vessel and the envelope of the dope quartz glass are integrally formed, in which case the lamp vessel is made entirely of dope quartz glass. The envelope may also be a separate body, such as a body surrounding a lamp vessel. In this case the envelope may be a closed envelope in a vacuum-tight manner, or it may also be a body between the lamp vessel and the envelope, which is a tubular body which does not need to be closed or closed at one or both ends.

The enclosure is of importance in all cases where the light source generates not only visible light but also ultraviolet light and the lamp should be used for the generated visible light. This prevents damage or damage to living things or goods caused by UV rays. The envelope also has the importance of carrying the light source at a higher temperature than without the envelope. This is generally beneficial for the luminous efficiency of the lamp. In addition, in the outer shell or in the outer tube, the tubular outer shell keeps the lamp safe from the risk of explosion and rupture of the lamp vessel which causes damage around the lamp in the absence of the outer shell.

An embodiment of the electric lamp according to the invention is shown in the accompanying drawings.

In FIG. 1, an electric lamp is provided with a light source 1 in a transparent quartz glass lamp vessel 2 closed in a vacuum sealed manner. The light source is a pair of electrodes in ionizing gases such as rare gases, mercury and halide metals. The light source has an enclosure 3 of a transmissive UV-absorbing quartz glass comprising aluminum oxide and a metal selected from the group to which cerium oxide and titanium oxide belong. The envelope of the dope quartz glass is attached to the lamp vessel with a fuse at its end. The lamp has a lamp cap 4 to which the cable 5 is exposed to the outside for connection to a source, which lamp may also be used as a headlight for an automobile.

The quartz glass of the shell portion 3 includes silicon oxide, cerium oxide, titanium oxide, europium oxide and aluminum oxide, in which case cerium is 0.1 to 0.2%, titanium is 0.01 to 0.04%, 0.03 to 0.2% of europium and 0.8% or less of aluminum are included, and the atomic ratio of the aluminum / uropium is in the range of 3 to 8.

The quartz glass of the envelope 3 may comprise, for example, 0.15% cerium, 0.02% titanium, 0.05% europium, or a tolerance of atomic weight for the atoms appears to be ± 0.1%. In this case, the atomic ratio of aluminum / uropium is in the range of 4 to 7, especially 4.

The lamp shown has an envelope of dope quartz glass obtained from the batch having the composite of Example 1 based on Table 1.

FIG. 2 shows a corresponding part to which reference numerals are added by adding ten units to the reference numerals shown in FIG.

The discharge lamp for general light emitting purposes as shown has a tubular envelope of dope quartz glass 13 inside the enclosure 16 closed in a vacuum sealed manner. The envelope is surrounded by a spiral coil metal wire 17 and absorbs ultraviolet light generated by the light source and transmits visible light. Together with the metal wires, the enclosure prevents damage to the exterior if the lamp container explodes. The lamp cap 14 has a contact pin 15.

In FIG. 3, the lamp has an incandescent body as a light source. The envelope 23 of the dope quartz glass is closed in a vacuum sealed manner. It is therefore filled with a gas containing halogen. The metal lamp cap 24 has a tube shape that supports the insulated contacts 25 and itself acts as a second contact. The lamp is suitable for acting as an automobile lamp without UV.

An example of the arrangement provided by the dope quartz glass which can be used in the electric lamp according to the invention is shown in Table 1 in atomic% and also in Example 1 in weight%.

M cation forming atom

* Ce and Al synthesis

** Exclude Al from CeAl0 ₃

^ Ce and Al Synthesis

^^ Excludes Si from Ce ₂ Si ₂ O ₇ .

4 shows the light transmission curve of the quartz glass obtained from the batch of Example 1 based on Table 1 above and the light emission curve of the glass described in EP-A 0 574 158.

The curve shows that the glass is at least transparent to visible light and impermeable to ultraviolet light. The actual light transmission in the visible part of the spectrum is only 92%, the loss of which is not caused by absorption but due to the reflection which always occurs on the surface according to the difference in refractive index according to the installation between glass and air and its loss Is constant.

From figure 4 it can be seen that the glass known from EP-A 0 574 158 actually has a low light transmission in the visible range of the spectrum.

Table 2 describes the case where two glasses are synthesized in a comparative form, and is expressed in weight percent per million doped cations.

1 is a side view of a first embodiment.

2 is a side view of a second embodiment.

3 is a side view of a third embodiment.

4 shows a projection curve for the glass described in Example 1 and EP-A 0 574 158.

♣ Explanation of symbols for main part of drawing ♣

1: light source 2: quartz glass lamp vessel

3, 23: envelope 4, 14, 24: lamp cap

5: cable 13: doped quartz glass

17: spiral coil metal wire 25: insulated contacts

Claims (4)

A light source 1 is provided in the floodlight container 2 closed in a vacuum sealed manner, the light source being an envelope of a transparent UV-absorbing quartz glass comprising metal oxide and aluminum oxide selected from the group to which cerium and titanium belong. In the electric lamp having (3), The quartz glass of the envelope 3 includes silicon oxide, cerium oxide, titanium oxide, europium oxide and aluminum oxide, and 0.1 to 0.2% cerium, 0.01 to 0.04% titanium, 0.03 to 0.03 based on cation forming atoms An electric lamp comprising 0.2% europium and no more than 0.8% aluminum, wherein the atomic ratio of aluminum / europium is in the range of 3-8. The method of claim 1, The quartz glass of the envelope (3) comprises 0.15 ± 0.015% cerium, 0.02 ± 0.002% titanium and 0.05 ± 0.005% europium. The method according to claim 1 or 2, The atomic ratio of said aluminum / europium is in the range of 4-7. The method according to claim 1 or 2, The atomic ratio of the aluminum / europium is 4 electric lamps.